MSc Projects
We can offer exciting experimental and theoretical MSc projects suitable for students with a background in physics, nano, electrical engineering or mathemathics.
Integration of Vertical InAs Nanowire Transistors on Si using Template Assisted Selective Epitaxy. In this project we use a novel Si CMOS compatible technique to expitaxially grow InAs on metal films and fabricate vertical MOSFETs. The project is experimental, focusing both on material development, device processing and electrical characterisation. Please contact Mattias Borg (mattias.borg@eit.lth.se) for more information.
Ferroelectric Materials and Devices for Neuromorphic Computing. In this project, a ferroelectric oxide HfZrO4 is studied for use ferroelectric tunnel junction memristors. The project is experimental, focusing both on material development, device processing and electrical characterisation. Please contact Mattias Borg (mattias.borg@eit.lth.se) for more information.
Memristor-based Neuromorphic Computing. In this project we model the performance of memristor devices at a system level, evaluating the impact of device variations and other non-linearities on performance in machine learning use-cases. This is a simulation project that can be performed in collaboration with Ericsson Research. Please contact Mattias Borg (mattias.borg@eit.lth.se) for more information.
Power Electronic Devices. In this project you will take part in the development of device suitable for high power applications, based on novel materials such as AlGaN and Ga2O3. We offer master projects within fabrication, measurement and device modeling. The project is performed within the C3NIT centre with strong ties to industry. Please contact Erik Lind (Erik.Lind@eit.lth.se) for more information.
Quantum Technology. We work with advanced devices on hybrid semiconductor-superconductor structures, for applications within quantum technologies. We can offer projects with device fabrication and characterization, as well as modeling, both on fundamental physics and circuit design level. Please contact Erik Lind (Erik.Lind@eit.lth.se) for more information.
If you're interested in the possibilities for other project within our research areas, please contact